Add to ORKGWe report the first experimental observation of a semiconductor/liquid junction whose open circuit voltage Voc is controlled by bulk diffusion/recombination processes. Variation in temperature, minority-carrier diffusion length, and/or in majority-carrier concentration produces changes in the Voc of the n-Si/CH3OH interface in accord with bulk recombination/diffusion theory. Under AM2 irradiation conditions, the extrapolated intercept at 0 K of Voc vs T plots yields activation energies for the dominant recombination process of 1.1–1.2 eV, in accord with the 1.12-eV band gap of Si. A crucial factor in achieving optimum performance of the n-Si/CH3OH interface is assigned to photoelectrochemical oxide formation, which passivates surface recomb...
High efficiency Si heterojunction (HJ) solar cells must exhibit low interface recombination, as it l...
Semiconductor|liquid junctions are a critical component of photoelectrochemical (PEC) devices for th...
Solar photovoltaics (PV), the technology that converts sunlight into electricity, has immense potent...
A photoelectrochemical anodization technique has been used to fabricate n-Si/insulator/metal (MIS) d...
Transconductance measurements have been used to characterize the space-charge regions of various n-S...
The behavior of Si/CH3OH-dimethylferrocene+/0 junctions has been investigated under high injection c...
A quantitative analysis of the theoretical value for the open-circuit photovoltage, Voc, of a semico...
This letter investigates silicon dioxide (SiO2) layers that are electrochemically grown in nitric ac...
The effects of introducing an n+-doped emitter layer have been evaluated for both planar Si photoele...
A key requirement in the recent development of highly efficient silicon solar cells is the outstandi...
Polysilicon recombination junctions whose n-type bottom layers double as a passivating contact to th...
An n+–p–p+ structure was formed by depositing a thin Al layer on one side and a semitransparent Pd l...
We introduce passivating hetero-interfaces in single-junction microcrystalline silicon (mc-Si:H) sol...
The effects of introducing an n^+-doped emitter layer have been evaluated for both planar Si photoel...
This thesis is concerned with the recombination mechanisms in polycrystalline silicon on glass solar...
High efficiency Si heterojunction (HJ) solar cells must exhibit low interface recombination, as it l...
Semiconductor|liquid junctions are a critical component of photoelectrochemical (PEC) devices for th...
Solar photovoltaics (PV), the technology that converts sunlight into electricity, has immense potent...
A photoelectrochemical anodization technique has been used to fabricate n-Si/insulator/metal (MIS) d...
Transconductance measurements have been used to characterize the space-charge regions of various n-S...
The behavior of Si/CH3OH-dimethylferrocene+/0 junctions has been investigated under high injection c...
A quantitative analysis of the theoretical value for the open-circuit photovoltage, Voc, of a semico...
This letter investigates silicon dioxide (SiO2) layers that are electrochemically grown in nitric ac...
The effects of introducing an n+-doped emitter layer have been evaluated for both planar Si photoele...
A key requirement in the recent development of highly efficient silicon solar cells is the outstandi...
Polysilicon recombination junctions whose n-type bottom layers double as a passivating contact to th...
An n+–p–p+ structure was formed by depositing a thin Al layer on one side and a semitransparent Pd l...
We introduce passivating hetero-interfaces in single-junction microcrystalline silicon (mc-Si:H) sol...
The effects of introducing an n^+-doped emitter layer have been evaluated for both planar Si photoel...
This thesis is concerned with the recombination mechanisms in polycrystalline silicon on glass solar...
High efficiency Si heterojunction (HJ) solar cells must exhibit low interface recombination, as it l...
Semiconductor|liquid junctions are a critical component of photoelectrochemical (PEC) devices for th...
Solar photovoltaics (PV), the technology that converts sunlight into electricity, has immense potent...